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Molecular Quantum Control Algorithm Design by Reinforcement Learning

quant-ph · 2024-10-15 · unverdicted · novelty 5.0

Reinforcement learning designs quantum-logic pulse sequences to prepare H3O+ (130 states) and CaH+ molecular ions in pure states from thermal populations.

Rotational excitation in sympathetic cooling of diatomic molecular ions by laser-cooled atomic ions

quant-ph · 2024-10-29 · unverdicted · novelty 3.0

Estimates based on prior collision data indicate limited rotational excitation accumulates during sympathetic cooling of diatomic molecular ions, with cooling times calculated for co-trapped single-ion and Coulomb crystal scenarios.

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Molecular Quantum Control Algorithm Design by Reinforcement Learning quant-ph · 2024-10-15 · unverdicted · none · ref 42
Reinforcement learning designs quantum-logic pulse sequences to prepare H3O+ (130 states) and CaH+ molecular ions in pure states from thermal populations.
Rotational excitation in sympathetic cooling of diatomic molecular ions by laser-cooled atomic ions quant-ph · 2024-10-29 · unverdicted · none · ref 22
Estimates based on prior collision data indicate limited rotational excitation accumulates during sympathetic cooling of diatomic molecular ions, with cooling times calculated for co-trapped single-ion and Coulomb crystal scenarios.

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